Novel Increase of Superconducting Critical Temperature of an Iron-Superconductor due to Ion Implantation

Energetic ion irradiation usually decreases superconducting critical temperature(Tc), with the few exceptions involving increases up to a few K only. However, our recent 2.5X10^15 Ar/cm2 irradiations by 1.5 MeV Ar6+ enhanced Tc of the single crystal Fe-superconductor Ba(Fe0.943Co0.057)2As2 by 8.2 K...

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Bibliographic Details
Published in:arXiv.org 2022-04
Main Authors: Sahu, Kriti R, Wolf, Thomas, Mishra, A K, Banerjee, A, Ganesan, V, De, Udayan
Format: Article
Language:English
Subjects:
Compressive properties
Critical temperature
Ion implantation
Ion irradiation
Iron
Magnetic permeability
Radiation damage
Rare gases
Single crystals
Superconductivity
Thickness
Transition temperature
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Summary:Energetic ion irradiation usually decreases superconducting critical temperature(Tc), with the few exceptions involving increases up to a few K only. However, our recent 2.5X10^15 Ar/cm2 irradiations by 1.5 MeV Ar6+ enhanced Tc of the single crystal Fe-superconductor Ba(Fe0.943Co0.057)2As2 by 8.2 K from its initial onset Tc of ~16.9 K as measured from the real part of the magnetic susceptibility, matching measurements from the imaginary part, electrical resistivity and magnetization. Ozaki et al. (2016) explained their Tc increase of 0.5 K in FeSe0.5Te0.5 films with the thickness (t) < the irradiating proton range (R), as due to a nanoscale compressive strain developed from radiation damage of the lattice. Here, Ar irradiation with t > R results in an Ar implanted layer in our crystal. Implanted inert gas atoms often agglomerate into high-pressure bubbles to exert a large compressive strain on the lattice. We suggest that this additional compressive strain could be the reason for such a large (~49%) Tc increase.
ISSN:2331-8422